Project description:Mycoestrogens are derived from mold and can interfere with female reproduction. Mycoestrogen zearalenone (ZEA) is a common food contaminant in levels of ppb ~ low ppm. Previously we demonstrated disrupted mouse placental development by 40 ppm ZEA diet. MicroRNAs are sensitive to xenobiotics and have been implicated in placental physiology and pathology. We hypothesized that ZEA could dysregulate microRNA expression in the mouse placenta. Gestation day 13.5 (D13.5) placentas from young mice treated with 0 ppm (control), 4 ppm, and 40 ppm ZEA diets were analyzed for microRNA profiling using microRNA array. The top 20 most highly expressed microRNAs in the D13.5 control placentas are predicated to target genes involved in important signaling pathways that are critical for maternal-fetal communications, such as protein processing in endoplasmic reticulum, endocytosis, and regulation of actin cytoskeleton. Using criteria of Log2FC ≥ 1 and Log2FC ≤ -1 (linear 2 fold change (FC)), a false discovery rate adjusted p-value ≤ 0.05, and average reading > 100 (top 20% most abundant microRNAs), R package limma identified 8 differentially expressed miRNAs (mmu-miR-133b-5p, mmu-miR-7028-5p, mmu-miR-294-3p, mmu-miR-3970, mmu-miR-20b-5p, mmu-miR-7683-3p, mmu-miR-291b-3p, mmu-miR-369-3p) in the 40 ppm ZEA group that included all 4 differentially expressed miRNAs in the 4 ppm ZEA group. Some of these differentially expressed microRNAs have been shown in vitro to have important functions in placental growth and maternal-fetal transport. These data imply roles of placental microRNAs in regulating expression of genes critical for placental function in vivo and in sensing environmental contaminants.

Project description:OBJECTIVE: To reveal the miRNA expression profile of placental exosomes by high-throughput sequencing and screen key biomarkers in different pregnancy period to provide new research ideas for the establishment and maintenance of pregnancy in cows and other ruminants.It can also provide reference for other pregnancy diseases. METHOD: Exosmal miRNAs were isolated from non-pregnant cows（n=3,Gestation Day(G.D.) 0）,early pregnant cows（n=3,G.D.60）,Middile pregnant cows（n=3,G.D.150）,Late pregnant cows（n=3,G.D.240）, small RNA profiles were generated by deep sequencing, in triplicate, using Illumina Hiseq SE50. RESULTS: During pregnancy, there was a high quantity of placental exosomes in the peripheral blood of cows, which selectively loaded some miRNAs. The abundance and species of miRNAs various from different stages of pregnancy, suggesting that exosomal miRNAs is involved in the regulation mechanism of pregnancy.

Project description:We performed RNA sequencing on the fetal portion of murine placentas isolated at gestational day (GD) 18, 8 days after dams are exposed to a single intravascular administration of either pooled murine-conserved HEamiRNAs (50 μg of pooled equimolar quantities of mmu-miR-222-5p, mmu-miR-187-5p, mmu-mir-299a, mmu-miR-491-3p, miR-760-3p, mmu-miR-671-3p, mmu-miR-449a-5p and mmu-miR-204-5p mimics) or control scrambled miRNAs.

Project description:The microRNA (miRNA) expression profile of plasma exosome in pregnant women complicated with gestational diabetes mellitus (GDM) has not been fully clarified. In this study, differentially expressed miRNAs in plasma exosomes were identified by high-throughput small RNA sequencing in 12 GDM and 12 normal glucose tolerance (NGT) pregnant women and validated in 102 GDM and 101 NGT pregnant women. A total of 22 exosomal miRNAs were found and five of them were verified by qRT-PCR. Exosomal miR-423-5p was upregulated, while miR-99a-5p, miR-192-5p, miR-148a-3p, and miR-122-5p were downregulated in pregnant women complicated with GDM.

Project description:Intercellular communication orchestrates effective immune responses against disease-causing agents. Extracellular vesicles (EVs) are potent mediators of cell-cell communication. EVs carry bioactive molecules, including microRNAs, which modulate gene expression and function in the recipient cell. Here, we show that formation of cognate primary OVA-specific T-B lymphocyte immune contacts promotes transfer to the B cell of a very restricted set of OTII-derived CD4+ T cell exosomal microRNAs (mmu-miR20a-5p, mmu-miR-25-3p and mmu-miR-155-3p). To discriminate exogenously transferred microRNAs from microRNAs induced in B cells after immune synaps, small RNAseq of CD19Cre/Ki DICERfl/fl (DICER-KO) B cells, virtually lacking mature microRNAs, alone and cocultured with OTII CD4+T cells in the presence and absence of OVA was performed; (N=3) independent experiments

Project description:Lifestyle disorders like obesity, type 2 diabetes (T2D), and cardiovascular diseases can be prevented and treated by regular physical activity. During exercise, skeletal muscles release signaling factors that communicate with other organs and mediate beneficial effects of exercise. These factors include myokines, metabolites, and extracellular vesicles (EVs). In the present study, we have examined how electrical pulse stimulation (EPS) of myotubes, a model of exercise, affects the cargo of released EVs. Chronic low frequency EPS was applied for 24 h to human myotubes isolated and differentiated from biopsy samples from 6 morbidly obese females with T2D, and EVs, both exosomes and microvesicles (MV), were isolated from cell media 24 h thereafter. Size and concentration of EV subtypes were characterized by nanoparticle tracking analysis, surface markers were examined by flow cytometry and Western blotting, and morphology was confirmed by transmission electron microscopy. Protein content was assessed by high-resolution proteomic analysis (LC-MS/MS), non-coding RNA was quantified by Affymetrix microarray, and selected microRNAs (miRs) validated by real time RT-qPCR. The size and concentration of exosomes and MV were unaffected by EPS. Of the 400 miRs identified in the EVs, EPS significantly changed the level of 15 exosome miRs, of which miR-1233-5p showed the highest fold change. The miR pattern of MV was unaffected by EPS. Totally, about 1000 proteins were identified in exosomes and 2000 in MV. EPS changed the content of 73 proteins in exosomes, 97 in MVs, and of these 4 were changed in both exosomes and MV (GANAB, HSPA9, CNDP2, and ATP5B). By matching the EPS-changed miRs and proteins in exosomes, 31 targets were identified, and among these several promising signaling factors. Of particular interest were CNDP2, an enzyme that generates the appetite regulatory metabolite Lac-Phe, and miR-4433b-3p, which targets CNDP2. Several of the regulated miRs, such as miR-92b-5p, miR-320b, and miR-1233-5p might also mediate interesting signaling functions.

Project description:Total RNA-seq analysis of mouse liver following LNA treatment in vivo to identify mRNA targets of mmu-miR-802-5p and mmu-miR-1948-5p.

Project description:We tested the hypothesis that a panel of placental mammal-specific miRNAs and their targets play important to establish receptivity to implantation and their dysregulated expression may be a feature in women with early pregnancy loss. Relative expression levels of miR-340-5p, −542-3p, and −671-5p all increased following treatment of Ishikawa cells with progesterone (10 μg/ml) for 24 hrs (p < 0.05). RNA sequencing of these P4-treated cells identified co-ordinate changes to 6,367 transcripts of which 1713 were predicted targets of miR-340-5p, 670 of miR-542-3p, and 618 of miR-671-5p. Quantitative proteomic analysis of Ishikawa cells transfected with mimic or inhibitor (48 hrs: n=3 biological replicates) for each of the P4-regulated miRNAs was carried out to identify targets of these miRNAs. Excluding off target effects, mir-340-5p mimic altered 1,369 proteins while inhibition changed expression of 376 proteins (p < 0.05) of which, 72 were common to both treatments. A total of 280 proteins were identified between predicted (mirDB) and confirmed (in vitro) targets. In total, 171 proteins predicted to be targets by mirDB were altered in vitro by treatment with miR-340-5p mimic or inhibitor and were also altered by treatment of endometrial epithelial cells with P4. In vitro targets of miR-542-3p identified 1,378 proteins altered by mimic while inhibition altered 975 a core of 200 proteins were changed by both. 100 protein targets were predicted and only 46 proteins were P4 regulated. miR-671-mimic altered 1,252 proteins with inhibition changing 492 proteins of which 97 were common to both, 95 were miDB predicted targets and 46 were also P4-regulated. All miRNAs were detected in endometrial biopsies taken from patients during the luteal phase of their cycle, irrespective of prior or future pregnancy outcomes Expression of mir-340-5p showed an overall increase in patients who had previously suffered a miscarriage and had a subsequent miscarriage, as compared to those who had infertility or previous miscarriage and subsequently went on to have a life birth outcome. The regulation of these miRNAs and their protein targets regulate the function of transport and secretion, and adhesion of the endometrial epithelia required for successful implantation in humans. Dysfunction of these miRNAs (and therefore the targets they regulate) may contribute to endometrial-derived recurrent pregnancy loss in women.

Project description:Pien Tze Huang (PZH) is herbal traditional Chinese medicine which was widely utilized in Asia for hepatic diseases. We constructed two groups hepatic fibrosis mice model using CCl4, one group using PZH treatment and another group replacing PZH with double distilled water. All 12 mice were fed for 8 weeks and then killed to have their liver tissue taken out. Small RNA-seq were used to identify miRNAs of PZH medicine effect for hepatic fibrosis. We found the expression of these miRNAs (mmu-miR-205-5p, mmu-miR-3064-5p, mmu-miR-205-5p, mmu-miR-370-3p, mmu-miR-665-3p) were changed in PZH medicine treatment for hepatic fibrosis study. Furthermore, Hmga2 and Fgf9, miRNAs corresponding target genes (Sp4, Slc2a6, Tln2, Hmga2, Ank3, Pax9, Fgf9), have been reported association with hepatic fibrosis.

Project description:Objective: To investigate the impact of JTXK granule on the miRNA expression profiles in hepatic tissue of diabetic mice, and to explore the molecular targets and associated signaling pathways of JTXK granule in its anti-diabetic effect. Methods: High fat diet was used to induce diabetic model, and mice were subsequently divided into JTXK-treated group and model group. After 8 weeks’ intervention we screened the differentially expressed miRNAs between the two groups using microRNA sequencing analysis (3 mice in each group). Finally, miRNA target gene prediction, GO and KEGG analysis were applied to explore the function of DEMs. Results: A total of 33 significantly differentiated miRNAs were detected in comparison between the two groups (|log2(fold change) |＞0.3, P<0.05). MiRNA-mRNA analysis showed that mmu-miR-30a-5p, mmu-miR-23b-5p, mmu-miR-199a-5p, mmu-miR-425-5p and mmu-miR-214-3p are closely related to inflammatory response, histological changes and insulin signal transduction in liver. In addition, KEGG analysis showed that the DEMs were closely related to Ras and insulin signaling pathway. Conclusion: JTXK granule exerts anti-diabetic effect in hepatic tissue of diabetic mice by modulating miRNAs and mRNAs network.